Current Topics in Cellular Regulation
- 1st Edition, Volume 1 - January 1, 1969
- Imprint: Academic Press
- Editors: Bernard L. Horecker, Earl R. Stadtman
- Language: English
- Paperback ISBN:9 7 8 - 1 - 4 8 3 2 - 0 3 5 7 - 7
- eBook ISBN:9 7 8 - 1 - 4 8 3 2 - 1 7 0 0 - 0
Current Topics in Cellular Regulation, Volume 1 presents the fundamental mechanisms involved in the regulation of diverse cellular activities, including the transfer of genetic… Read more
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Request a sales quoteCurrent Topics in Cellular Regulation, Volume 1 presents the fundamental mechanisms involved in the regulation of diverse cellular activities, including the transfer of genetic information, intermediary metabolism, and cellular differentiation. This book discusses the advances in the general area of cellular regulation. Organized into 10 chapters, this volume begins with an overview of the molecular models that attempt to provide the correlation of the kinetic properties of the protein with its structural architecture. This text then examines several aspects of metabolism and of metabolic enzymes that appear to represent adaptations to the need to limit solute concentrations and conserve solvent capacity. Other chapters consider the factors that determine the overall rates of metabolic pathways. This book discusses as well the biosynthetic pathways leading to the branched-chain amino acids. The final chapter deals with the structure and mechanism of action of pyruvate carboxylase. This book is a valuable resource for biologists and biochemists.
List of Contributors
Preface
Conformational Aspects of Enzyme Regulation
I. Introduction
II. The Symmetry Model
III. The Ligand-Induced or Sequential Model
IV. Comparison of the Models
V. Observed Systems
VI. Evaluation
VII. Future Developments
References
Limitation of Metabolite Concentrations and the Conservation of Solvent Capacity in the Living Cell
I. Introduction
II. Activated Forms of Intermediates
III. Levels of Enzyme Activities
IV. Michaelis Constants
V. Modulation of Enzyme Activity
VI. Summary
The Role of Equilibria in the Regulation of Metabolism
I. Introduction
II. The Role of the Lactate Dehydrogenase System in the Control of Gluconeogenesis from Lactate
III. The Role of Equilibria in the Alcohol Dehydrogenase System in the Metabolism of Ethanol
IV. Extrahepatic Ketogenesis
V. Equilibria in the Metabolism of Propionate
VI. Summing Up
References
Regulation of the Biosynthesis of the Branched-Chain Amino Acids
I. Historical Introduction
II. Regulation of Metabolite Flow by End-Product Inhibition
III. Control of Enzyme Level in the Pathways to the Branched-Chain Amino Acids
IV. The Inhibition of Growth of Escherichia coli Strain K12 by Valine
References
On the Roles of Synthesis and Degradation in Regulation of Enzyme Levels in Mammalian Tissues
I. Introduction
II. Properties of Protein Turnover in Rat Liver
III. Theoretical Formulation of a Model for Changing Enzyme Levels in Animal Tissues
IV. Control of Synthesis and Degradation of Specific Enzymes
V. On Mechanisms Controlling Synthesis and Degradation of Specific Enzymes
VI. Concluding Remarks
References
The Regulation of the Biosynthesis of α-1,4-Glucans in Bacteria and Plants
I. Introduction
II. Properties of the ADP-Glucose:α-1,4-Glucan-4-Glucosyl Transferases of Plants
III. Glycogen Accumulation in Bacteria
IV. Bacterial ADP-Glucose : α-1,4-Glucan-4-Glucosyl Transferases
V. ADP-glucose Pyrophosphorylase (Synthetase)
VI. Kinetic Properties of the ADP-Glucose Pyrophosphorylase
VII. Physical Properties of the ADP-Glucose Pyrophosphorylases
VIII. Genetic Regulation of Glycogen Synthesis in Escherichia coli
References
Allosteric L-Threonine Dehydrases of Microorganisms
I. Introduction
II. Biodegradati ve Dehydrase of Escherichia coli
III. Biodegradative Dehydrase of Clostridium tetanomorphum
IV. Biosynthetic L-Threonine Dehydrases
V. Conclusion
References
The Aspartokinases and Homoserine Dehydrogenases of Escherichia coli
I. Two Aspartokinases in Escherichia coli
II. The Threonine-Sensitive Homoserine Dehydrogenase of Escherichia coli
III. Isolation of a Mutant Lacking the Lysine-Sensitive Aspartokinase Gif 54 and of Revertants Thereof
IV. Inhibition Properties of the Aspartokinase and of the Homoserine Dehydrogenase of the Threonine-Excreting Revertants of Gif 54
V. Mutants Lacking Homoserine Dehydrogenase in Escherichia coli B
VI. Indirect Evidence That the Threonine-Sensitive Aspartokinase and Homoserine Dehydrogenase of Escherichia coli K12 Are Carried by the Same Molecule
VII. Direct Evidence That the Threonine-Sensitive Aspartokinase and Homoserine Dehydrogenase of Escherichia coli K12 Are Carried by the Same Protein
VIII. Determination of the Molecular Weight of Aspartokinase I-Homoserine Dehydrogenase I
IX. Amino Acid Analysis of Aspartokinase I-Homoserine Dehydrogenase I
X. Subunit Structure of Aspartokinase I-Homoserine Dehydrogenase I
XI. The Binding of Threonine to Aspartokinase I-Homoserine Dehydrogenase I
XII. The Binding of Pyridine Nucleotides of Aspartokinase I-Homoserine Dehydrogenase I
XIII. The Effects of Threonine on Aspartokinase I-Homoserine Dehydrogenase I Are Not Due Only to Direct Interaction
XIV. Aspartokinase I-Homoserine Dehydrogenase I and the Transconformation Models
XV. Demonstration of the Existence in Escherichia coli K12 of a Third Aspartokinase and of a Second Homoserine Dehydrogenase (Aspartokinase II and Homoserine Dehydrogenase II), Two Activities under the Repressive Control of Methionine
XVI. Indirect Evidence for a Single Protein Carrying the Aspartokinase and Homoserine Dehydrogenase II Activities in Escherichia coli K12
XVII. The Situation in Escherichia coil B as Opposed to E. coli K12
XVIII. Direct Evidence That Aspartokinase II and Homoserine Dehydrogenase II Activities Are Carried by the Same Protein. Its Molecular Weight and Subunit Structure
XIX. Discussion on the Origin of the Two Multifunctional Proteins and of Aspartokinase III. Antigenic Independence of the Three Proteins
XX. The Significance of Iso functional and Multifunctional Enzymes in the Regulation of Biosynthetic Pathways
References
Pyruvate Dehydrogenase Complex
I. Introduction
II. Composition and Macromolecular Organization
III. Regulatory Features
IV. Significance of Multienzyme Complexes in Cellular Regulation
References
Pyruvate Carboxylase
I. Introduction. The Discovery and Metabolic Roles of Pyruvate Carboxylase
II. Mechanism of Action
III. Structure
IV. Role of Acetyl-CoA in the Pyruvate Carboxylate Reaction
V. Conclusion. Regulation of Pyruvate Carboxylase by Mechanisms Not Related to the Concentration of Acetyl-CoA
References
Author Index
Subject Index
- Edition: 1
- Volume: 1
- Published: January 1, 1969
- No. of pages (eBook): 326
- Imprint: Academic Press
- Language: English
- Paperback ISBN: 9781483203577
- eBook ISBN: 9781483217000
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